Two-part solenoid and method for the production thereof

ABSTRACT

A solenoid including a substantially cylindrical hollow bobbin made of an insulating material is provided, which is mountable on a housing body and is provided with at least two relay connectors anchored in an end area of the bobbin and projecting axially therefrom, and the solenoid is also coupled to a contact element. The solenoid and the contact element are two separate components which are connectable to each other by a connecting part of the contact element attachable to the housing body, by a suitable securing method, e.g., by soldering or welding.

FIELD OF THE INVENTION

The present invention relates to a two-part solenoid and a method forthe manufacture thereof.

BACKGROUND OF THE INVENTION

A solenoid described in German Patent 295 14 315 U1 includes a largelycylindrical hollow bobbin made of an insulating material that isprovided with two relay connectors anchored in an end area of the bobbinand projecting axially therefrom, with which it is possible to wind thebobbin mechanically. The bottom of the bobbin forming the bottom of thewinding space has variable adjacent winding levels in the axialdirection which are offset against one another in the radial direction,with the transitions between the winding levels being designed as abevel having an inclination of approximately 30 degrees. Except in thetransition areas, the bottom of the bobbin is provided with grooves forthe winding wire.

The disadvantage of the solenoid described in the above-mentioned GermanPatent 295 14 315 U1 lies, in particular, in the overall length of thesolenoid, which is determined by the length of the relay connector. Thismakes the solenoid susceptible to damage, for example, when mechanicallywinding the coil wire. The relay connectors have a tendency to bend.

Another disadvantage is that different flat connectors for theelectrical lines may require different manufacturing methods, whichcomplicates the production process and makes it expensive.

SUMMARY OF THE INVENTION

The solenoid according to the present invention has the advantage overthe related art that the short relay connectors enable the solenoid tobe easily handled in subsequent processing steps, and, in addition, acontact element of any shape, for example a flat connector, may beattached to the solenoid by a simple snap-on connection and subsequentlyconnected to the relay connectors.

An advantage of this invention is the easy manufacture of the relayconnectors and contact elements, which may be manufactured, for example,by punching them out of a metal sheet.

The connecting part between the solenoid and the contact element isadvantageously made of a flexible plastic which enables the contactelement to be mounted on the bobbin or the valve housing.

The contact tabs of the contact element are still connected duringmanufacturing, which makes it easier to correctly position the contacttabs relative to each other. After being extrusion-coated with plastic,the contact tabs are separated by punching.

The angled extensions of the contact tabs give the contact element ashape that allows it to be easily connected to the relay connectors.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows a schematic top view of a relay connector of a solenoidaccording to the present invention.

FIG. 1B shows a schematic side view of a relay connector of a solenoidaccording to the present invention.

FIG. 1C shows a sectional view of a cross-section taken along the linemarked IC—IC in FIG. 1A.

FIG. 2A shows a schematic view of the bobbin of a solenoid according tothe present invention.

FIG. 2B shows a longitudinal section of the bobbin of a solenoidaccording to the present invention.

FIG. 2C shows an enlarged view of area IIC shown in FIG. 2B.

FIG. 3A shows a cross-section of a solenoid according to the presentinvention.

FIG. 3B shows a schematic side view of the solenoid shown in FIG. 3A.

FIG. 4A shows a schematic view of the contact element of the solenoidaccording to the present invention in first of three consecutive stagesof processing.

FIG. 4B shows a schematic view of the contact element of the solenoidaccording to the present invention in second of three consecutive stagesof processing.

FIG. 4C shows a schematic view of the contact element of the solenoidaccording to the present invention in third of three consecutive stagesof processing.

FIG. 5A shows a schematic representation of the first method stepaccording to the present invention for connecting the solenoid to thecontact element.

FIG. 5B shows a schematic representation of the second method stepaccording to the present invention for connecting the solenoid to thecontact element.

FIG. 5C shows a schematic representation of the third method stepaccording to the present invention for connecting the solenoid to thecontact element.

FIG. 5D shows a schematic representation of the fourth method stepaccording to the present invention for connecting the solenoid to thecontact element.

FIG. 5E shows a schematic representation of the fifth method stepaccording to the present invention for connecting the solenoid to thecontact element.

DETAILED DESCRIPTION OF THE INVENTION

Solenoid 2 according to the present invention, shown in FIG. 3B, issuitable, in particular, as a component for a fuel-injection valve likethose used, for example, to inject fuel into the combustion chamber of amixture-compressing, internal combustion engine with externally suppliedignition.

FIGS. 1A-1C show a schematic representation of a relay connector orterminal support 1 of a solenoid 2 according to the present invention indifferent views.

FIG. 1A shows a top view of relay connector 1, which is needed tosuitably hold in place wire ends 7 of wire 6, which is shown in FIG. 3B,and which is wound to form solenoid 2, so that the ends may be connectedto electrical lines leading to a control unit for the fuel injectionvalve.

Relay connector 1 has a generally tab-llke shape having side or lateralprojections 25 and 26. Shorter projections 25 are used, in particular,to stabilize the position of relay connector 1 in a bobbin 3.

Projections 26 are used to widen the surface of relay connector 1 sothat, after bobbin 3 has been wound, the ends of winding 5 can beattached to relay connector 1, for example by soldering.

Relay connector 1 also has holes 27 and 28, which, like projections 25and 26, are used to fix relay connector 1 in place in bobbin 3 or tofasten wire ends 7. For example, wire ends 7 may be fed through hole 28and then pinched. Hole 27 is filled with plastic when relay connector 1is injected into bobbin 3, thereby securing relay connector 1 in placein bobbin 3.

FIG. 1B shows a corresponding side view of relay connector 1. Due to itssimple shape, relay connector 1 may be easily produced, for example, bypunching it out of a metal sheet.

FIG. 1C shows a cross-section along the line marked IC—IC in FIG. 1A. Inan exemplary embodiment, relay connector 1 may have rounded edges, whichfurther simplifies processing.

FIGS. 2A-2B show a schematic view and a schematic longitudinal section,respectively, of bobbin 3 of a solenoid 2 according to the presentinvention, and FIG. 2C shows an enlarged view of the area marked IIC inFIG. 2B.

FIG. 2A shows a schematic side view of unwound bobbin 3 having relayconnectors 1 already attached to bobbin 3. Because of their simpleshape, relay connectors 1 are easily connectable to bobbin 3. Bobbin 3is principally made of plastic by injection molding. Relay connector 1is injected into bobbin 3 up to lateral projections 25.

Bobbin 3 has a largely cylindrical hollow design with a circumferentialrecess 30 for holding winding 5.

An extension 4 of bobbin 3, which forms an end area and extends thecylindrical hollow cross-section of bobbin 3 in an angular range ofapproximately 40°, is molded onto bobbin 3. Relay connectors 1 areinjected in one end area 31 of extension 4.

FIG. 2B shows a longitudinal section of bobbin 3 of solenoid 2 accordingto the present invention, illustrated in a schematic sectionalrepresentation. Relay connectors 1 are attached in projecting end area31 of extension 4 of bobbin 3.

FIG. 2C shows an enlarged view of section IIC of FIG. 2B for furtherclarification. Relay connectors 1 are inserted into extension 4 ofbobbin 3 up to the point marked E in FIG. 1A.

FIG. 3A shows a view of the relay connector end of a solenoid 2according to the present invention. Of a winding 5 of solenoid 2, onlywire ends 7, which are wound around relay connector 1, are visible.

FIG. 3B shows a side view of a solenoid 2 according to the presentinvention, around which winding 5 of a wire 6 is wound on bobbin 3. Wireends 7 are routed from winding 5 of solenoid 2 via extension 4 of bobbin3 to relay connectors 1. Wire ends 7 are routed to relay connectors 1 inan indentation 32 provided in extension 4 of bobbin 3, and they arewound around relay connectors 1 at least once in the area betweenprojections 25 and 26 and may have flattened segments 8 for betterattachment to relay connectors 1. Possible attachment methods includewelding or soldering or even fixing wire ends 7 in hole 27.

FIGS. 4A-4C show schematic representations of three consecutiveprocessing steps in the manufacture of a contact element 9 according tothe present invention.

FIG. 4A shows a schematic view of one exemplary embodiment of contactelement 9, which, like relay connectors 1, is easily punchable from ametal sheet. Contact element 9 has two contact tabs 10 which haverounded front edges 11. Both contact tabs 10 are punched out in a singlepiece, connected by a web 12 which is removed later on. Two extensions13 projecting outward at a desired angle are provided at the end ofcontact element 9 opposite rounded edges 11. Extensions 13 are used forconnection to relay connectors 1 in a later processing step. Multipleholes 14 a, 14 b are provided in contact tabs 10 of contact element 9,with the present exemplary embodiment having two holes per contact tab10.

In the next processing step, whereby contact element 9 isextrusion-coated, the plastic enters holes 14 a, 14 b, securelyanchoring contact tabs 10 of contact element 9 in the plastic.

FIG. 4B shows a schematic view of contact element 9 after contact tabs10 have been extrusion-coated with plastic. A first plastic web 15 isformed in the area of holes 14 a. The plastic enters holes 14 a andholds contact tabs 10 a certain distance apart, determined by the widthof web 12. A connecting part 16 according to the present invention isinjection-molded onto plastic web 15. For stability, a second plasticweb 19 is provided in the area of holes 14 b and used to stabilize theposition of contact tabs 10 relative to one another.

To electrically isolate contact tabs 10, metallic web 12 is removed bypunching.

First plastic web 15 continues into connecting part 16, which wasinjection-molded onto contact element 9, using a suitable apparatuswhich is not illustrated in any further detail here. Connecting part 16is in the shape of a hollow cylinder that is open at one end. Slightlymore than half of the cylinder wall is designed as a complete hollowcylinder. Extensions 13, which will connect contact tabs 10 to relayconnectors 1 later on, project laterally from plastic web 15.

FIG. 4C shows a side view of the exemplary embodiment of contact element9 illustrated in FIG. 4B after a further processing step. In thisprocessing step, contact element 9 is bent at an approximately 30-degreeangle toward the horizontal at a bending point 17 in the vicinity ofplastic web 15.

FIGS. 5A-5E show a schematic representation of the method steps forconnecting solenoid 2 according to the present invention to contactelement 9.

FIG. 5A shows a view similar to that in FIG. 3A of the relay connectorend of bobbin 3. Relay connectors 1 and wire ends 7 are visible in endarea 4 of bobbin 3.

FIG. 5B shows the same representation of bobbin 3 after relay connectors1 have been bent. Relay connectors 1 are preferably bent outward at a90-degree angle from their previous position.

FIG. 5C shows a side view of solenoid 2 that is already mounted on ahousing body 18. Housing body 18 has an external housing 21, whichencapsulates solenoid 2, and an inner housing part 22 that gripssolenoid 2 and has an outer diameter equal to the inner diameter ofconnecting part 16. Due to the special shape of connecting part 16according to the present invention, it may be mounted on inner housingpart 22 in a stable snap-on connection. Connecting part 16 surroundsinner housing part 22 in an area which forms an angle greater than 180degrees, preventing connecting part 16 from sliding off inner housingpart 22 in the radial direction.

FIG. 5D shows the same view as FIGS. 5A and 5B, illustrating bobbin 3,which is mounted on inner housing part 22, with connecting element 9positioned over connecting part 16. Extensions 13 of contact tabs 10 ofcontact element 9 come to rest on bent relay connectors 1 of bobbin 3.First plastic web of contact tabs 10 of contact element 9 has anexternal shape that prevents connecting part 16 from sliding on internalhousing part 22.

In the final method step, as shown in FIG. 5E, contact element 9 isconnected to relay connectors 1 by a weld 20 or by soldering it ontoextensions 13. The welding or soldering step arrests contact element 9firmly in its final position so that it cannot move in either axial orradial direction. This also establishes a secure electrical contactbetween contact element 9 and relay connectors 1.

The present invention is not limited to the illustrated exemplaryembodiment, but is also suitable for a contact element 9 having a widevariety of other shapes. According to the method of the presentinvention, coils having multiple windings insulated against one anothermay be provided with a contact element of any design.

1. A connectable solenoid for use with a housing body, comprising: asolenoid having a substantially cylindrical hollow bobbin made of aninsulating material slidable onto and adapted to be coupled to thehousing body and provided with at least two relay connectors anchored inan end area of the bobbin and projecting axially therefrom; and acontact element having at least two contact tabs and including aconnecting part attached to the housing body; wherein the solenoid andthe contact element are two separate components; and wherein thesolenoid, via the at least two relay connectors, and the contactelement, via the at least two contact tabs, are connected to each otherby the connecting part of the contact element.
 2. The connectablesolenoid according to claim 1, wherein the contact element has at leasttwo extensions that are connected to the relay connectors of thesolenoid.
 3. The connectable solenoid according to claim 2, wherein thecontact element is attached to the relay connectors of the solenoid byone of soldering and welding.
 4. The connectable solenoid according toclaim 3, wherein the at least two contact tabs are connected to eachother by a web.
 5. The connectable solenoid according to claim 4,wherein the contact tabs have holes.
 6. A connectable solenoid for usewith a housing body, comprising: a solenoid having a substantiallycylindrical hollow bobbin made of an insulating material adapted to becoupled to the housing body and provided with at least two relayconnectors anchored in an end area of the bobbin and projecting axiallytherefrom; and a contact element; wherein the solenoid and the contactelement are two separate components which are connected to each other bya connecting part of the contact element attached to the housing body;wherein the contact element has at least two extensions that areconnected to the relay connectors of the solenoid; wherein the contactelement is attached to the relay connectors of the solenoid by one ofsoldering and welding; wherein the contact element has at least twocontact tabs are connected to each other by a web; wherein the contacttabs have holes; and wherein the contact element is connected to theconnecting part by a first plastic web, the first plastic web extendingbetween the contact tabs, and each of the holes located in the contacttabs being embedded in the first plastic web.
 7. The connectablesolenoid according to claim 6, wherein two further holes are connectedto each other by a second plastic web which extends between the contacttabs.
 8. A connectable solenoid for use with a housing body, comprising:a solenoid having a substantially cylindrical hollow bobbin made of aninsulating material slidable onto and adapted to be coupled to thehousing body and provided with at least two relay connectors anchored inan end area of the bobbin and projecting axially therefrom; and acontact element having at least two contact tabs and including aconnecting part attached to the housing body; wherein the solenoid andthe contact element are two separate components; wherein the solenoid,via the at least two relay connectors, and the contact element, via theat least two contact tabs, are connected to each other by the connectingpart of the contact element; and wherein the connecting part partiallysurrounds the housing body.
 9. The connectable solenoid according toclaim 1, wherein the housing body is cylindrical in shape.
 10. Aconnectable solenoid for use with a housing body, comprising: a solenoidhaving a substantially cylindrical hollow bobbin made of an insulatingmaterial slidable onto and adapted to be coupled to the housing body andprovided with at least two relay connectors anchored in an end area ofthe bobbin and projecting axially therefrom; and a contact elementhaving at least two contact tabs and including a connecting partattached to the housing body; wherein the solenoid and the contactelement are two separate components: wherein the solenoid, via the atleast two relay connectors, and the contact element, via the at leasttwo contact tabs, are connected to each other by the connecting part ofthe contact element; and wherein the connecting part surrounds thehousing body in an angular range that is greater than 180°.
 11. Theconnectable solenoid according to claims 1, wherein the connecting partis made of an elastic plastic.
 12. The connectable solenoid according toclaim 6, wherein the connecting part is injection-molded onto the firstplastic web.
 13. The connectable solenoid according to claim 12, whereina portion of each of the at least two contact tabs is bent at an angle.